Digitally Guided Direct Composite Injection Technique with a Bi-layer Clear Mini-Index for the Management of Extensive Occlusal Caries in a Pediatric Patient: A Case Report

This case report presents a direct composite inverse injection technique using a bi-layer clear mini-index fabricated with a digital workflow to restore extensive posterior occlusal cavities in a 13-year-old patient. After a root canal treatment in the right mandibular first molar and step-wise exca...

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Published in	The journal of adhesive dentistry Vol. 25; p. 211
Main Authors	Hosaka, Keiichi, Tichy, Antonin, Yamauti, Monica, Watanabe, Keiichiro, Kamoi, Kohei, Yonekura, Kazuhide, Foxton, Richard, Nakajima, Masatoshi
Format	Journal Article
Language	English
Published	Germany Quintessence Publishing Co Inc 16.10.2023
Subjects	Adhesive Dentistry Adolescent Antioxidants Child Composite Resins - chemistry Dental Caries Susceptibility Dental Cements - chemistry Dental Restoration, Permanent Dentin-Bonding Agents - chemistry Humans Resin Cements - chemistry digital workflow injection technique bi-layer clear mini-index direct composite restoration endodontically treated tooth
Online Access	Get full text
ISSN	1757-9988 1461-5185 1757-9988
DOI	10.3290/j.jad.b4515527

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Abstract	This case report presents a direct composite inverse injection technique using a bi-layer clear mini-index fabricated with a digital workflow to restore extensive posterior occlusal cavities in a 13-year-old patient. After a root canal treatment in the right mandibular first molar and step-wise excavation of deep caries in the left mandibular first molar, the extensive occlusal restorations were digitally designed using CAD software, upon which digital wax-ups were 3D-printed. Bi-layer clear mini-indices consisting of a hard outer plastic layer and an elastic inner silicone layer were prepared from the 3D-printed cast. The bonding surfaces were deproteinized using a 6% sodium hypochlorite solution, and an antioxidant (Clearfil DC Activator; Kuraray Noritake) was utilized to improve the dentin bonding durability of a 2-step self-etch adhesive (Clearfil SE Bond 2; Kuraray Noritake). Subsequently, a highly filled universal-shade flowable resin composite (RC) was incrementally placed into the cavities. To create the final occlusal morphology, the same RC was inversely injected through the opening of the bi-layer indices. The workflow was feasible, and the occlusal cavities were efficiently restored using the injection technique. Occlusal carving and adjustments of the morphology were not necessary, leading to less chair time. At the 1-year follow-up, the clinical outcome was excellent. The injection technique with a bi-layer clear mini-index accurately translated the digital wax-ups into large, final restorations. Precise morphology and shortened chair time enhanced patient satisfaction, but at the expense of multiple visits.
AbstractList	This case report presents a direct composite inverse injection technique using a bi-layer clear mini-index fabricated with a digital workflow to restore extensive posterior occlusal cavities in a 13-year-old patient. After a root canal treatment in the right mandibular first molar and step-wise excavation of deep caries in the left mandibular first molar, the extensive occlusal restorations were digitally designed using CAD software, upon which digital wax-ups were 3D-printed. Bi-layer clear mini-indices consisting of a hard outer plastic layer and an elastic inner silicone layer were prepared from the 3D-printed cast. The bonding surfaces were deproteinized using a 6% sodium hypochlorite solution, and an antioxidant (Clearfil DC Activator; Kuraray Noritake) was utilized to improve the dentin bonding durability of a 2-step self-etch adhesive (Clearfil SE Bond 2; Kuraray Noritake). Subsequently, a highly filled universal-shade flowable resin composite (RC) was incrementally placed into the cavities. To create the final occlusal morphology, the same RC was inversely injected through the opening of the bi-layer indices. The workflow was feasible, and the occlusal cavities were efficiently restored using the injection technique. Occlusal carving and adjustments of the morphology were not necessary, leading to less chair time. At the 1-year follow-up, the clinical outcome was excellent. The injection technique with a bi-layer clear mini-index accurately translated the digital wax-ups into large, final restorations. Precise morphology and shortened chair time enhanced patient satisfaction, but at the expense of multiple visits. This case report presents a direct composite inverse injection technique using a bi-layer clear mini-index fabricated with a digital workflow to restore extensive posterior occlusal cavities in a 13-year-old patient.PURPOSEThis case report presents a direct composite inverse injection technique using a bi-layer clear mini-index fabricated with a digital workflow to restore extensive posterior occlusal cavities in a 13-year-old patient.After a root canal treatment in the right mandibular first molar and step-wise excavation of deep caries in the left mandibular first molar, the extensive occlusal restorations were digitally designed using CAD software, upon which digital wax-ups were 3D-printed. Bi-layer clear mini-indices consisting of a hard outer plastic layer and an elastic inner silicone layer were prepared from the 3D-printed cast. The bonding surfaces were deproteinized using a 6% sodium hypochlorite solution, and an antioxidant (Clearfil DC Activator; Kuraray Noritake) was utilized to improve the dentin bonding durability of a 2-step self-etch adhesive (Clearfil SE Bond 2; Kuraray Noritake). Subsequently, a highly filled universal-shade flowable resin composite (RC) was incrementally placed into the cavities. To create the final occlusal morphology, the same RC was inversely injected through the opening of the bi-layer indices.MATERIALS AND METHODSAfter a root canal treatment in the right mandibular first molar and step-wise excavation of deep caries in the left mandibular first molar, the extensive occlusal restorations were digitally designed using CAD software, upon which digital wax-ups were 3D-printed. Bi-layer clear mini-indices consisting of a hard outer plastic layer and an elastic inner silicone layer were prepared from the 3D-printed cast. The bonding surfaces were deproteinized using a 6% sodium hypochlorite solution, and an antioxidant (Clearfil DC Activator; Kuraray Noritake) was utilized to improve the dentin bonding durability of a 2-step self-etch adhesive (Clearfil SE Bond 2; Kuraray Noritake). Subsequently, a highly filled universal-shade flowable resin composite (RC) was incrementally placed into the cavities. To create the final occlusal morphology, the same RC was inversely injected through the opening of the bi-layer indices.The workflow was feasible, and the occlusal cavities were efficiently restored using the injection technique. Occlusal carving and adjustments of the morphology were not necessary, leading to less chair time. At the 1-year follow-up, the clinical outcome was excellent.RESULTSThe workflow was feasible, and the occlusal cavities were efficiently restored using the injection technique. Occlusal carving and adjustments of the morphology were not necessary, leading to less chair time. At the 1-year follow-up, the clinical outcome was excellent.The injection technique with a bi-layer clear mini-index accurately translated the digital wax-ups into large, final restorations. Precise morphology and shortened chair time enhanced patient satisfaction, but at the expense of multiple visits.CONCLUSIONThe injection technique with a bi-layer clear mini-index accurately translated the digital wax-ups into large, final restorations. Precise morphology and shortened chair time enhanced patient satisfaction, but at the expense of multiple visits.
Author	Kamoi, Kohei Yamauti, Monica Yonekura, Kazuhide Tichy, Antonin Nakajima, Masatoshi Watanabe, Keiichiro Foxton, Richard Hosaka, Keiichi
AuthorAffiliation	a Professor, Department of Regenerative Dentistry, Tokushima University Graduate School of Biomedical Sciences, and Division of Interdisciplinary Research for Medicine and Photonics, Institute of Post LED Photonics, Tokushima University, Tokushima, Japan; Visiting Scientist, Department of Electrical Engineering and Computer Science, Microsystems Technology Laboratories, Massachusetts Institute of Technology, Cambridge, MA, USA. Protocol development, clinical case operator, wrote the manuscript, project administration f Assistant Professor, Department of Regenerative Dental Medicine, Tokushima University Graduate School of Biomedical Sciences, and Division of Interdisciplinary Research for Medicine and Photonics, Institute of Post-LED Photonics, Tokushima University, Tokushima, Japan. Protocol development, investigation c Associate Professor, Operative Dentistry, Graduate School of Dental Medicine, Hokkaido University, Hokkaido, Japan. Protocol development, wrote the manuscript b Assistant
AuthorAffiliation_xml	– name: e Registered Dental Technician, Department of Dental Laboratory, Tokushima University Hospital, Tokushima, Japan. Protocol development, investigation – name: h Visiting Professor, Department of Regenerative Dental Medicine, Tokushima University Graduate School of Biomedical Sciences, Tokushima, Japan. Protocol development, project administration – name: f Assistant Professor, Department of Regenerative Dental Medicine, Tokushima University Graduate School of Biomedical Sciences, and Division of Interdisciplinary Research for Medicine and Photonics, Institute of Post-LED Photonics, Tokushima University, Tokushima, Japan. Protocol development, investigation – name: a Professor, Department of Regenerative Dentistry, Tokushima University Graduate School of Biomedical Sciences, and Division of Interdisciplinary Research for Medicine and Photonics, Institute of Post LED Photonics, Tokushima University, Tokushima, Japan; Visiting Scientist, Department of Electrical Engineering and Computer Science, Microsystems Technology Laboratories, Massachusetts Institute of Technology, Cambridge, MA, USA. Protocol development, clinical case operator, wrote the manuscript, project administration – name: b Assistant Professor, Institute of Dental Medicine, First Faculty of Medicine of the Charles University and General University Hospital, Prague, Czech Republic. Protocol development, wrote the manuscript – name: c Associate Professor, Operative Dentistry, Graduate School of Dental Medicine, Hokkaido University, Hokkaido, Japan. Protocol development, wrote the manuscript – name: d Assistant Professor, Orthodontics and Dentofacial Orthopedics, Tokushima University Graduate School of Biomedical Sciences, Tokushima, Japan. Protocol development, wrote the manuscript – name: g Lecturer, Faculty of Dentistry, Oral & Craniofacial Sciences, King’s College London, London, UK. Protocol development, wrote the manuscript
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SubjectTerms	Adhesive Dentistry Adolescent Antioxidants Child Composite Resins - chemistry Dental Caries Susceptibility Dental Cements - chemistry Dental Restoration, Permanent Dentin-Bonding Agents - chemistry Humans Resin Cements - chemistry
Title	Digitally Guided Direct Composite Injection Technique with a Bi-layer Clear Mini-Index for the Management of Extensive Occlusal Caries in a Pediatric Patient: A Case Report
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